Difference between revisions of "Software Oscilloscopes"

From TheAnalogThing
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[[Image:DSO_XY_display.png|thumb|typical Yt display of signals on a DSO]]
 
[[Image:DSO_XY_display.png|thumb|typical Yt display of signals on a DSO]]
There are low cost oscilloscope on the market as well in the range of 40-100 € as well but these come with missing features and have mostly only one channel to display like DSO 138 or missing XY mode like DS 212/213. This is only partly useful with analog computations or simulations and all theses cheap handhelds have only a very small display. Some low cost oscilloscopes come without a display and are connected to a computer as display by software. So what are the requirements to met with an oscilloscope for The Analog Thing ?
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There are low cost oscilloscope on the market as well in the range of 40-100 € but these come with missing features and have mostly only one channel to display like DSO 138 or missing XY mode like DS 212/213. This is only partly useful with analog computations or simulations and all theses cheap handhelds have only a very small display. Some low cost oscilloscopes come without a display and are connected to a computer as display by software. So what are the requirements to met with an oscilloscope for The Analog Thing ?
  
 
<big>'''Minimum requirements'''</big>
 
<big>'''Minimum requirements'''</big>
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To feed signals into a soundcard you need to connect for example X and Y chinch connector to the line in jack of the computer or external sound device. Additional you must choose which signal in your analog circuit should be displayed by connecting any output of a computing element (integrator, summer, multiplier or comparator) to the OUT field on the front panel with a patch cable. If you want to input a signal to your analog circuit you do the same on the patch panel but connect the used chinch connector to an audio output. Some of the software solutions can display incoming signals but also offer signal generators additionally.  
 
To feed signals into a soundcard you need to connect for example X and Y chinch connector to the line in jack of the computer or external sound device. Additional you must choose which signal in your analog circuit should be displayed by connecting any output of a computing element (integrator, summer, multiplier or comparator) to the OUT field on the front panel with a patch cable. If you want to input a signal to your analog circuit you do the same on the patch panel but connect the used chinch connector to an audio output. Some of the software solutions can display incoming signals but also offer signal generators additionally.  
  
Be aware, that the chinch connectors are connected with a passive resistor divider and have a low output impedance of approx. 500 Ohm. This is suitable for the audio inputs as the typical input impedance is in the range of approx 5-10 kOhm. Anyway the shown values for voltages of the software oscilloscopes are more or less an approximation or maybe can be adjusted by a factor in the configuration. Even audio outputs can often drive such impedances without problems. If an input signal of +/- 1V should be transferred in the range of +/- 10V it is easy to use the 10x input of a summer or integrator and use whose output.
+
Be aware, that the chinch connectors are connected with a passive resistor divider and have a output impedance of approx. 500 Ohm. This is suitable for the audio inputs as the typical input impedance is in the range of approx 5-10 kOhm. Anyway the shown values for voltages of the software oscilloscopes are more or less an approximation or maybe can be adjusted by a factor in the configuration. Even audio outputs can often drive such impedances without problems. If an input signal of +/- 1V should be transferred in the range of +/- 10V it is easy to use the 10x input of a summer or integrator and use whose output.
  
 
Beside the chinch connectors it is easily to adapt signals directly at the patch cables with oscilloscope probes or feed signals directly with a cable adapter (cut one end of a patch cable and solder it to any signal of a programmable barebone controller board like arduino or similar.
 
Beside the chinch connectors it is easily to adapt signals directly at the patch cables with oscilloscope probes or feed signals directly with a cable adapter (cut one end of a patch cable and solder it to any signal of a programmable barebone controller board like arduino or similar.

Revision as of 12:17, 1 August 2021

To watch and measure the values and curves produced during an analog computation or simulation you need additional instruments. The Analog Thing contains a voltmeter as instrument to setup the coordinates or OP_TIME values. Depending on the mode of operation in REP with predefined operation time or OP with infinite operation this display may be useful for static or slow moving values only.

typical Yt display of signals on a DSO

To measure faster events or display signal curves the best tool is an oscilloscope. For longer operation times (REP, 0.1-10s) a digital storage oscilloscope (DSO) is preferred rather than an analog oscilloscope with a cathode ray tube (CRT). These DSO did get cheaper in the last years but useful DSO's with minimum 2 channels and XY mode are in the price range of about 150-300 € up. XY mode is useful for many applications and allow a better view of complex signals than displaying them just over the time in Yt mode. The typical Lissajous figures for example require the XY mode.

typical Yt display of signals on a DSO

There are low cost oscilloscope on the market as well in the range of 40-100 € but these come with missing features and have mostly only one channel to display like DSO 138 or missing XY mode like DS 212/213. This is only partly useful with analog computations or simulations and all theses cheap handhelds have only a very small display. Some low cost oscilloscopes come without a display and are connected to a computer as display by software. So what are the requirements to met with an oscilloscope for The Analog Thing ?

Minimum requirements

  • analog oscilloscope with CRT display or software display while connected to computer
  • 2 channels minimum
  • XY display mode
  • 100 kHz bandwith

Better requirements

  • 4 channels or separate trigger input
  • DSO type (digital storage)

There is a cheaper alternative for beginners with low budget while using a Soundcard Oscilloscope software. These solutions are based on using a sound input of the computer and a software to display the signal while reading digitized data of AD converters on the soundcard. If your computer contains a sound input you are lucky as you can get the software for free. Unfortunately many newer computers no more have classical sound input in stereo (so called 'line-in') and if so it is mostly only a microphone input as mono (1 channel instead of 2). This is the same lack as an oscilloscope with only 1 input channel.

Audio setup THAT with USB device

An alternative to the missing inbuild audio input is a USB device. There are not many line-in stereo devices and most are only mono to use with microphones. A well tested device was the Behringer UFO202 with line-in and line out (each stereo) which is connected to USB, don't need any drivers and suitable for WIN, Mac and Linux in the price range of approx. 20 €. If your computer has already a microphone (mono) input you may buy a second cheap mono "microphone in" USB device for approx. 10 €. Be sure, that there is also an audio input and not just an audio output.

The Analog Thing audio connectors

The Analog Thing is already prepared to work with the above listed classic audio in devices as the used frequencies in an analog computation or simulation is mostly in the range of 20 Hz ... 20 kHz. There are 4 chinch connectors named with X, Y, Z, U which can be used either as signal output or signal input as well. The voltage range of +/- 10V of the reference voltage (representing the analog values 1.0 ... -1.0) is reduced by factor 10 to +/- 1V (representing 0.1 ... -0.1). This is a safe voltage for audio input devices (line in).

To feed signals into a soundcard you need to connect for example X and Y chinch connector to the line in jack of the computer or external sound device. Additional you must choose which signal in your analog circuit should be displayed by connecting any output of a computing element (integrator, summer, multiplier or comparator) to the OUT field on the front panel with a patch cable. If you want to input a signal to your analog circuit you do the same on the patch panel but connect the used chinch connector to an audio output. Some of the software solutions can display incoming signals but also offer signal generators additionally.

Be aware, that the chinch connectors are connected with a passive resistor divider and have a output impedance of approx. 500 Ohm. This is suitable for the audio inputs as the typical input impedance is in the range of approx 5-10 kOhm. Anyway the shown values for voltages of the software oscilloscopes are more or less an approximation or maybe can be adjusted by a factor in the configuration. Even audio outputs can often drive such impedances without problems. If an input signal of +/- 1V should be transferred in the range of +/- 10V it is easy to use the 10x input of a summer or integrator and use whose output.

Beside the chinch connectors it is easily to adapt signals directly at the patch cables with oscilloscope probes or feed signals directly with a cable adapter (cut one end of a patch cable and solder it to any signal of a programmable barebone controller board like arduino or similar.

The following oscilloscope software products have been tested and are free of charge (or nearly).

Mac OS oscilloscope software

Mac OS - Oscilloppoi

This is a very handy software solution, available over the official Apple App Store for a symbolic price of approx. just 1 € while the solution is very fast and has many interesting options including the XY mode. The default controls with the round knobs are a bit tricky to use (turned in a circle) but can be replaced with sliders in the configuration.

It is a dual channel oscilloscope software with XY mode as well and has an inbuild signal generator for use with audio outputs or also as input channel. Oscilloppoi works very well in the frequency range of 20 Hz up to 20 kHz while showing some distortions in the sine waves at more than 10 kHz. This is related to the maximum sampling rate of 48 kHz on the audio channel. The software has no voltage shown on Y axis but using the scale factor 4.5x is showing a signal with approx. 5V/div.

Two signals displayed in XY mode

In single trigger mode you can display a single trigger event for further investigations. At any point screenshots can be made with CMD-C and are copied to the clipboard and easily copied in any other software for documentation or other purposes.

Features of Oscilloppoi:

  • Dual Channel with XY mode
  • Math operations (add and subtract of signals)
  • Trigger mode Auto, Normal, Single with Holdoff
  • Internal signal generator with sine wave, triangle, sawtooth, square and wave editor

Oscilloppoi App from Apple App Store

Win Soundcard Oscilloscope

WIN - Soundcard Oscilloscope

A software solution for Windows user is the Soundcard Oscilloscope from Christian Zeitnitz which is free of charge for private use. The software runs under several WIN versions like 7/8/10 and was very stable during tests. A calibration factor of 2.5 in the settings gives an approx. good result of the input signal of 1V amplitude.

The software supports dual channel display including XY mode and has also an inbuild signal generator. Additionally this software has a feature of FFT to show the Fourier spectrum of a signal.

input may be need change to stereo under WIN

Features of WIN Soundcard Oscilloscope:

  • Dual Channel with XY mode
  • Math operations (add, subtract and multiplication)
  • Frequency analysis
  • Trigger mode Auto, Normal, Single
  • Internal signal generator
  • Audio recorder to record incoming signals to a file

There was a small issue with the audio input device we used. WIN 10 recognized this as a mono device (microphone) only while it supports stereo line in. This issues can be solved in the WIN configuration, selecting your audio input device and set the configuration option to Stereo with 48 kHz Sampling frequency.

Windows Soundcard Oscilloscope



Linux Xoscope

Linux - Xoscope

Finally an oscilloscope software for Linux is existing as well but not as comfortable as the above described solutions for Mac and WIN. As usual, you have to build this software with compiler, linker and make.

http://xoscope.sourceforge.net


Data aquisition tools

We will soon report additional solutions and projects for data aquisition based on barebone microcontroller boards with ADC shields to digitize the analog signals.

Microcontroller/System on Chip based input